JP2004314478A - Ink-jet printer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an ink-jet printer which can prevent ultraviolet rays from entering a maintenance unit even in the middle of an image recording operation, and can further confirm a state of the maintenance unit. <P>SOLUTION: A carriage 3 which moves back and forth is set at the ink-jet printer 1. A head 4 and an ultraviolet irradiation mechanism 10 are loaded on the carriage 3. The maintenance unit 6 is arranged at a maintenance region Z. The maintenance unit 6 consists of a wiper blade 63, a saucer 62, a suction cap 61 and the like. The maintenance unit 6 is stored in a box 81, and comes in and out from an opening 81a of the box 81. The opening 81a is opened and closed by a lid member 82. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an inkjet printer that records an image on a recording medium by discharging ink on the recording medium with a head.
[0002]
[Prior art]
2. Description of the Related Art In recent years, many image recording apparatuses using an ink jet method have been used as image recording means capable of recording an image easily and at low cost. Ink jet printers that use the ink jet method eject ink as fine droplets from a discharge port of the head toward a recording medium such as paper while moving the head over the recording medium, and allow the ink to permeate or fix the recording medium. By doing so, the image is recorded on the recording medium.
[0003]
In recent years, an inkjet printer using an ultraviolet curable ink has been known as an inkjet printer capable of forming an image even on a recording medium having poor ink absorption such as a resin film (for example, Patent Document 1). reference). This ink jet printer irradiates an ink that has landed on a recording medium with ultraviolet rays by an ultraviolet irradiation mechanism to cure the ink and fix it on the recording medium.
[0004]
However, in such an ink-jet printer, when recording is continuously performed, the mist-like ink discharged from the discharge port of the head adheres and deposits near the discharge port, and the discharge port is clogged. May cause. If the recording operation is continued in such a state, even if the head performs an ejection operation, ejection failure may occur, and as a result, a problem may occur in image recording.
[0005]
Therefore, in order to perform normal image recording, it is necessary to perform head maintenance at a predetermined timing. Therefore, an inkjet printer equipped with a maintenance unit for performing head maintenance has been developed (for example, Patent Document 2). The maintenance operation performed by the maintenance unit includes a forced suction operation, a wiping operation, an empty discharge operation, and the like. The forced suction operation is to cover the surface of the head on which the discharge port is formed with a cap member so as to be hermetically sealed, and to suction the air with the suction pump through the cap member to remove air bubbles remaining in the discharge port and the vicinity thereof. This is to remove dust and the like by suction together with the ink. The wiping operation is to wipe off the ink attached to the surface on which the ejection openings are formed with a wiper blade. The idle discharge operation is an operation in which the head idle-discharges ink and receives the ink. Since the ink also adheres to such a maintenance unit, it is necessary to remove the ink adhered to the maintenance unit, and the maintenance unit is manually cleaned.
[0006]
[Patent Document 1]
JP 2001-310454 A
[Patent Document 2]
Japanese Patent No. 2730930
[0007]
[Problems to be solved by the invention]
However, when the ink attached to the maintenance unit is cured, it is difficult to remove the ink from the maintenance unit. When the inkjet printer is performing the maintenance operation by the maintenance unit, if the ultraviolet irradiation mechanism is turned off, the ink attached to the maintenance unit will not be cured. However, when the inkjet printer is performing an image recording operation, the ultraviolet irradiation mechanism must be turned on, and the ultraviolet light emitted from the ultraviolet irradiation mechanism enters the maintenance unit due to reflection, diffraction, and the like. Therefore, it is desirable that the maintenance unit be shielded from light by some method. However, if the maintenance unit is shielded from light, it is difficult to check how much ink has adhered to the maintenance unit.
[0008]
Therefore, an object of the present invention is to provide an ink jet printer that can prevent ultraviolet rays from being incident on the maintenance unit even during the image recording operation and that can check the state of the maintenance unit.
[0009]
[Means for Solving the Problems]
In order to solve the above problem, an invention according to claim 1 has a head that has an ejection port and ejects ink that is cured by being irradiated with ultraviolet rays from the ejection port toward a recording medium, and An ultraviolet irradiation mechanism for irradiating ultraviolet light, wherein the head irradiates the ink ejected from the ejection port and lands on the recording medium with the ultraviolet irradiating mechanism to irradiate the ink with ultraviolet light to cure the ink. And a shielding unit that covers the outside of the maintenance unit and has an ultraviolet shielding property and a visible light transmitting property.
[0010]
According to the first aspect of the present invention, since the shielding unit has an ultraviolet shielding property and the maintenance unit is covered by the shielding unit, the ultraviolet light emitted from the ultraviolet irradiation mechanism during the image recording operation is reflected and diffracted. Even so, it is possible to prevent the light from entering the maintenance unit. Therefore, it is possible to prevent the ink attached to the maintenance unit from being hardened, and the maintenance unit can be easily cleaned.
Further, since the shielding unit has visible light transmittance, the state of the maintenance unit covered by the shielding unit can be visually checked. Therefore, it is possible to easily understand how much ink has adhered to the maintenance unit, and the cleaning timing of the maintenance unit is not missed. Furthermore, in order to grasp the state of the maintenance unit, it is not necessary to take out the maintenance unit from the inside of the shielding unit or to retreat the shielding unit.
[0011]
According to a second aspect of the present invention, in the ink jet printer according to the first aspect, the shielding unit covers the outside of the maintenance unit and has a box formed with an opening, and a closed position closing the opening. And a cover member movably provided between the box and the open position where the opening is opened, wherein the box and the cover member have ultraviolet light shielding properties and visible light transmitting properties.
[0012]
According to a third aspect of the present invention, in the inkjet printer according to the second aspect, the maintenance unit is movable between a position protruding out of the box from the opening and a position housed in the box. It is characterized by being provided.
[0013]
According to the second and third aspects of the present invention, since the lid member opens and closes the opening of the box, if the maintenance unit projects from the box through the opening during the maintenance operation, maintenance is performed on the head. Can be. During the image recording operation, if the maintenance unit is covered by the box and the lid member closes the opening, the ultraviolet light emitted from the ultraviolet irradiation mechanism is reflected and diffracted and enters the maintenance unit. Can be prevented. Furthermore, since the lid member and the box have visible light transmittance, the state of the maintenance unit can be visually checked.
[0014]
According to a fourth aspect of the present invention, in the ink jet printer according to the second or third aspect, an opening / closing mechanism for moving the lid member from the closed position to the open position is provided.
[0015]
According to the fourth aspect of the invention, the opening is automatically opened and closed by the lid member, not manually.
[0016]
According to a fifth aspect of the present invention, in the ink jet printer according to any one of the second to fourth aspects, at least one of the lid member and the box body is formed of an acrylic resin. I do.
[0017]
According to the fifth aspect of the present invention, the acrylic resin has an ultraviolet shielding property and a visible light transmitting property. Therefore, during the image recording operation, the maintenance unit is covered by the box, and it is possible to prevent the ultraviolet light emitted from the ultraviolet irradiation mechanism from being incident on the maintenance unit even when reflected and diffracted. Further, the state of the maintenance unit can be visually checked. Further, since the acrylic resin is relatively inexpensive, providing the box and the cover member does not increase the cost of the ink jet printer.
[0018]
According to a sixth aspect of the present invention, in the inkjet printer according to any one of the first to fifth aspects, a suction cap that covers the discharge port when the maintenance unit suctions ink from the discharge port, It is characterized by comprising a receiving portion for receiving ink discharged from the discharge port in a state facing the discharge port later, and a blade for rubbing the head after suction.
[0019]
According to the sixth aspect of the present invention, since the maintenance unit is provided with the suction cap, the blade, and the receiving portion, the discharge state of the discharge port can be efficiently returned.
[0020]
According to a seventh aspect of the present invention, in the ink jet printer according to any one of the first to sixth aspects, the maintenance operation by the maintenance unit includes a suction operation of sucking ink from the head and an operation of attaching the ink to the head. The method includes at least one of a wiping operation for wiping ink and a receiving operation for receiving ink that has been idle-discharged from a discharge port of the head.
[0021]
According to the seventh aspect of the present invention, the clogging of the nozzles of the head is prevented by performing the maintenance operations such as the suction operation, the wiping step, and the receiving operation, and it is possible to always perform good image formation.
[0022]
According to an eighth aspect of the present invention, in the inkjet printer according to any one of the first to seventh aspects, the head is configured to heat an ink which is a liquid having a viscosity at 30 ° C. of 10 to 500 mPa · s by heating means. It is characterized in that it is heated to about 150 [deg.] C. and ejected so that one dot becomes a small droplet of 2 to 20 pl.
[0023]
In the invention according to claim 8, since a high-viscosity ink having a viscosity at 30 ° C. of 10 to 500 mPa · s is used, the flow of the ink on the recording medium and the like even on a non-ink-absorbing recording medium can be reduced. Although high-quality image recording can be performed without causing such a problem, even when such a high-viscosity ink is used, the head maintenance operation can be efficiently performed. In addition, since the ink is heated to 30 to 150 ° C. and ejected from the head, the ink is ejected in a good state, so that image recording can be performed. As a result, high-quality image recording is possible even with high-viscosity ink.
[0024]
According to a ninth aspect of the present invention, in the ink jet printer according to any one of the first to eighth aspects, the recording medium is made of a material that is non-absorbable with respect to the ink. .
[0025]
In the case where an image is recorded on a recording medium that is non-absorbable with respect to the ink, a high-viscosity ink is used to prevent the ink from flowing on the recording medium. According to this, even in such a case, it is possible to perform an appropriate and efficient maintenance operation on the head.
[0026]
According to a tenth aspect of the present invention, in the ink jet printer according to any one of the first to ninth aspects, the ink is a cationically polymerizable ink.
[0027]
According to the tenth aspect of the present invention, even when the cationically polymerizable ultraviolet curable ink is used, it is possible to appropriately prevent the ink from sticking to the maintenance unit and perform a sufficient maintenance operation even when performing continuous image recording. And a high quality image can be obtained.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. However, the scope of the invention is not limited to the illustrated example.
[0029]
FIG. 1 is a front view showing an inkjet printer 1 that records an image on a recording medium P by a serial recording method. The inkjet printer 1 includes a transport mechanism for transporting a web-shaped recording medium P. The transport mechanism includes a motor, a transport roller, and the like, and is configured to intermittently transport the recording medium P by the power of the motor. The platen 5 is disposed below the recording medium P conveyed by the conveyance mechanism. The platen 5 supports the recording medium P substantially flat from below.
[0030]
A carriage guide 2 is arranged above the platen 5 and the recording medium P. The carriage guide 2 extends in the main scanning direction A orthogonal to the transport direction in which the recording medium P is transported. In FIG. 1, the transport direction is a direction perpendicular to the plane of the drawing.
[0031]
A carriage 3 is supported by the carriage guide 2 so as to be reciprocally movable in the main scanning direction A. The carriage 3 is moved along the carriage guide 2 by a power source such as a motor. Here, a central area within the movable range of the carriage 3 is defined as a recording area Y, an area outside the recording area Y and one end side is defined as a home area X, and a home area is sandwiched between the recording areas Y. An area opposite to X is defined as a maintenance area Z. At the time of image recording operation, the carriage 3 reciprocates within the recording area Y, at the time of stand-by, when the power is turned off or the like, the carriage 3 is located within the home area X, and at the time of maintenance, the carriage 3 is within the maintenance area Z. To position. The platen 5 is arranged below the recording area Y.
[0032]
The carriage 3 has four heads 4, 4,... And two ultraviolet irradiation mechanisms 10, 10. These four heads 4, 4,... Are arranged in a line along the main scanning direction A. A nozzle plate 42 is provided on the lower surface 41 of each head 4, and a plurality of discharge ports are formed in the nozzle plate 42. The head 4 is provided with a piezo element for each ejection port. The head 4 is provided so as to individually discharge ink from each discharge port by changing the pressure inside the head 4 itself by a piezo element.
[0033]
The colors of the ink are yellow (Y), magenta (M), cyan (C), and black (K). For each color ink, an ultraviolet curable ink that is cured by irradiation with ultraviolet light is used.
[0034]
Each of the heads 4, 4,... Is provided with heating means such as a heater and a Peltier element. The heating means heats the ink inside the head 4 to 30 ° C. to 150 ° C. Note that a heating means may be provided in the ink tank for storing the ink. Even in this case, the ink heated to 30 ° C. to 150 ° C. by the heating means is supplied from the ink tank to the heads 4, 4,. The heated ink is discharged from 4, 4,....
[0035]
Here, the ink and the recording medium used in the embodiment of the present invention will be described. Inks are particularly suitable for “photo-curing technology (Chapter 4)” in “Photo-curing technology (Chapter 4)” described in “Photo-curing technology-Selection of resin / initiator and measurement / evaluation of blending conditions and curing degree” The ink is compatible with a curing system using a base generator (section 1), a light-induced alternating copolymerization (section 2), and the like. This ink is composed of a coloring material, a polymerizable monomer (or a polymerizable oligomer), a photoinitiator, and the like. The monomer is crosslinked by the photoinitiator acting as a catalyst when irradiated with ultraviolet rays. It has the property of being cured by a polymerization reaction. However, when the ink used in the present embodiment is an ink conforming to the “light-induced alternating copolymerization (Second Section)”, the photoinitiator may be omitted.
[0036]
Ultraviolet curable inks are roughly classified into radical polymerizable inks containing radical polymerizable compounds and cationic polymerizable inks containing cationic polymerizable compounds as polymerizable compounds, and both inks are used in the present embodiment. It is applicable as an ink used in the present embodiment, and a hybrid ink obtained by combining a radical polymerizable ink and a cationic polymerizable ink may be used as the ink used in the present embodiment.
[0037]
However, a cationically polymerizable ink having less or no inhibition of the polymerization reaction by oxygen is more excellent in functionality and versatility, and therefore, in this embodiment, a cationically polymerizable ink is particularly used. The cationically polymerizable ink used in the present embodiment is, specifically, a mixture containing at least a cationically polymerizable compound such as an oxetane compound, an epoxy compound, and a vinyl ether compound, a photocationic initiator, and a coloring material. As described above, it has the property of being cured by irradiation with ultraviolet rays.
[0038]
The ink in the present embodiment is a liquid having a viscosity at 30 ° C. of 10 to 500 mPa · s. In order to obtain a high-quality image, it is preferable that the ink has a viscosity of 40 to 500 mPa · s. When the viscosity is less than 10 mPa · s, blurring occurs on the recording medium to deteriorate the recorded image, and when the viscosity is higher than 500 mPa · s, the smoothness of the image quality is lost. This is because the image quality is stabilized when it has a viscosity of 40 to 500 mPa · s.
The ink is preferably a liquid of 3 to 30 mPa · s at 60 ° C., more preferably 3 to 20 mPa · s. If the pressure is 3 mPa · s or less, there occurs a problem that accurate landing cannot be performed when high-speed ejection is performed, and if the pressure is 30 mPa · s or more, the ejection property deteriorates.
[0039]
The recording medium P may be formed of a material that is non-absorbable with respect to the ink ejected from the heads 4, 4,. It may be formed of a material. In the present embodiment, a non-ink-absorbing recording medium is used as the recording medium P from the viewpoint of recording high-quality images on the recording medium P. Here, non-absorptive means that ink is not absorbed. In the present invention, the transfer amount of the ink in the Bristow method is 0.1 ml / mm. ² Less than 0 ml / mm ² Is a non-absorbent recording medium, and the other recording medium is an absorptive recording medium.
[0040]
As the non-absorbable recording medium, for example, in addition to ordinary non-coated paper, coated paper, etc., various non-absorbable plastics and films thereof used for so-called flexible packaging can be used. Examples of various plastic films include PET films, OPS films, OPP films, ONy films, PE films, and TAC films. Examples of other plastics include polycarbonate, acrylic resin, ABS resin, polyacetal, PVA, rubbers, and the like. A preferable non-absorbing recording medium has a surface energy within a range of 35 mN / m to 60 mN / m, and a more preferable one has a surface energy within a range of 40 mN / m to 60 mN / m. is there.
Examples of the absorbent recording medium include plain paper (copy paper), high-quality paper, and the like.
[0041]
On both sides of the heads 4, 4,... In the main scanning direction A, the ultraviolet irradiation mechanisms 10, 10 are mounted on the carriage 3. These ultraviolet irradiation mechanisms 10 and 10 irradiate ultraviolet rays downward. Here, the ultraviolet ray refers to light having a shorter wavelength than visible light (wavelength 380 nm to 780 nm) and a longer wavelength than X-rays. The upper end of the ultraviolet wavelength range is 380 to 400 nm, and the lower end of the wavelength range. Is 0.2 to 1 nm. The ultraviolet rays emitted from the ultraviolet irradiation mechanisms 10 may be light of a single wavelength or light of a predetermined wavelength range. The wavelength at which the ink discharged from the heads 4, 4,. It is the included light.
[0042]
On both sides of the platen 5 in the main scanning direction A, a maintenance unit 6 for maintaining the heads 4, 4,... And a moisture retaining unit 7 for keeping the heads 4, 4,. , The maintenance unit 6 is arranged below the maintenance area Z, and the moisturizing unit 7 is arranged below the home area X. Further, in the maintenance area Z, a shielding unit 80 is provided to cover the outside of the maintenance unit 6 and to block ultraviolet rays from entering the maintenance unit 6.
[0043]
The moisturizing unit 7 is provided with the same number of moisturizing caps 71, 71,... As the head 4, and the moisturizing caps 71, 71,. Each moisturizing cap 71 has a size and a shape corresponding to the lower part of the head 4 so as to cover the lower part of the head 4, and moisturizes the ink relating to the head 4. The moisturizing unit 7 itself is moved up and down by a vertical movement mechanism (not shown).
[0044]
The maintenance unit 6 includes a wiper blade 63 for wiping the nozzle plate 42 of the head 4, a receiving tray 62 for receiving and collecting ink that has been ejected from the ejection port in a state facing the ejection port of the head 4, , Which are attached to the nozzle plate 42 so as to cover the lower surface 41 of the nozzle 4. The wiper blade 63, the tray 62, and the suction caps 61, 61,... Are arranged in a line along the main scanning direction A. The wiper blade 63, the tray 62, and the suction caps 61, 61,. ing.
[0045]
The wiper blade 63 is provided upright, and is made of an elastically deformable member such as rubber or a brush material. The wiper blade 63 wipes off the ink attached to the nozzle plate 42 from the nozzle plate 42 when the nose plate 42 passes over the wiper blade 63 in a state where the nose plate 42 is in contact with the wiper blade 63.
[0046]
Are provided in the same number as the heads 4, 4,.... One tube 66 per suction cap 61 communicates with the bottom surface of the suction cap 61. One suction pump 64 is provided for one tube 66 in the middle of the tube 66. The suction pump 64 generates a suction force from the suction cap 61 toward the waste tank 65 through the pipe 66. When the nozzle plate 42 is attached to the suction cap 61, the discharge port of the nozzle plate 42 is covered by the suction cap 61. Thus, the ink is sucked from the ejection port.
[0047]
The maintenance unit 6 is driven up and down by a lifting mechanism (not shown). That is, the elevating mechanism includes a motor and the like, and the suction caps 61, 61,..., The tray 62, the wiper blade 63, the suction pump 64, the waste tank 65, and the pipes 66, 66,. It is designed to be moved.
[0048]
When the maintenance unit 6 is positioned at the uppermost point by the elevating mechanism, the upper end of the wiper blade 63 is located above the nozzle plate 42 and the suction caps 61, 61,. They are located at the same height. When the maintenance unit 6 is located at the lowest point by the lifting mechanism, the maintenance unit 6 is stored inside the shielding unit 80.
[0049]
The shielding unit 80 will be described in detail with reference to the perspective view of FIG. As shown in FIG. 2, the shielding unit 80 includes a box 81 formed in a box shape, and the outside of the maintenance unit 6 is covered by the box 81. The bottom of the box 81 is open, and an opening 81a is formed in the upper surface of the box 81 so as to penetrate therethrough. The box body 81 is arranged such that the suction caps 61, 61,..., The tray 62, and the wiper blade 63 all fit inside the opening 81a when viewed from above. Also, when the maintenance unit 6 is positioned at the highest point by the elevating mechanism, the suction caps 61, 61,..., The tray 62, and the wiper blade 63 project above the upper surface of the box 81 through the opening 81a. Has become. On the other hand, when the maintenance unit 6 is positioned at the lowest point by the lifting mechanism, the suction caps 61, 61,..., The tray 62, and the wiper blade 63 are positioned below the upper surface of the box 81. .
[0050]
A lid member 82 is provided on the upper surface of the box body 81. The lid member 82 extends along the upper surface of the box body 81 from a closed position where the lid member 82 overlaps the opening portion 81a on the upper surface and closes the opening portion 81a to an open position where the opening portion 81a is released from the opening portion 81a. It is slidably provided.
[0051]
The shielding unit 80 is provided with an opening / closing device having a motor and the like (not shown). This opening and closing device opens and closes the lid member 82, and is configured to move the lid member 82 between a closed position and an open position.
[0052]
Both the box body 81 and the lid member 82 are formed of a material that blocks ultraviolet rays and transmits visible light. Here, the wavelength of the ultraviolet light shielded by the box 81 and the cover member 82 does not need to be the entire wavelength range of the ultraviolet light, but may be any wavelength of the ultraviolet light emitted from the ultraviolet irradiation mechanism 10. Further, the wavelength of the visible light transmitted through the box 81 and the cover member 82 does not need to be in the entire wavelength range of the visible light, and it is sufficient that the visible light can be confirmed to be transparent.
[0053]
As a material having an ultraviolet shielding property and a visible light transmitting property, there is a methacrylic resin (a polymethacrylic acid ester: sometimes referred to as an acrylic resin). In addition to methacrylic resin, polyacrylic acid or polyacrylic acid ester may be used for the box 81 and the lid member 82.
[0054]
Examples of the methacrylic resin include a methyl methacrylate homopolymer (polymethyl methacrylate: PMMA). Other examples include copolymers containing methyl methacrylate as a main component and copolymerizing less than 50% of copolymerizable monomer components such as various acrylates and styrene with methyl methacrylate. There are methyl methacrylate / styrene copolymer and methyl methacrylate / acrylate copolymer. A resin obtained by blending a small amount of another resin with a methacrylic resin may be used. Examples of the resin to be blended include acrylic rubber, polybutadiene, polyisoprene, butyl acrylate copolymer, styrene / butadiene copolymer, and other rubbers. The components of the box 81 and the lid member 82 may be the same or different. Either the box body 81 or the lid member 82 may be formed of methacrylic resin, or both may be formed of methacrylic resin.
[0055]
The shielding unit 80 and the maintenance unit 6 are integrally moved along a direction D parallel to the main scanning direction A by a moving mechanism (not shown).
[0056]
Further, the inkjet printer 1 is provided with a control device for controlling the whole. That is, the control device operates the carriage 3, the heads 4, 4,..., The ultraviolet irradiation mechanisms 10, 10, the pumps 64, 64,. , Or to stop. The control device controls the operation timing and stop timing of the carriage 3, the heads 4, 4,..., The ultraviolet irradiation mechanisms 10, 10, the pumps 64, 64,. Thus, the inkjet printer 1 operates.
[0057]
Next, the operation of the inkjet printer 1 will be described.
First, in the initial state, the carriage 3 is located above the moisturizing unit 7, the moisturizing unit 7 is at the raised position, and the lower surfaces 41 of the heads 4, 4,. Thereby, the nozzle plate 42 is protected, and the ink is kept moist. Further, in the initial state, the maintenance unit 6 is located at the lowest point, and the lid member 82 is located at the closing position. Thus, the suction caps 61, 61,..., The tray 62, and the wiper blade 63 are housed inside the box 81, and the opening 81 a is closed by the lid member 82.
[0058]
When the power of the ink jet printer 1 is turned on, the vertical movement mechanism moves the moisturizing unit 7 down from the carriage 3, whereby the moisturizing caps 71, 71,.
[0059]
Then, the maintenance operation by the maintenance unit 6 of the inkjet printer 1 starts, and the carriage 3 moves from the home area X to the maintenance area Z through the recording area Y along the carriage guide 2.
[0060]
Before the carriage 3 reaches the maintenance area Z, the opening / closing device moves the lid member 82 from the closed position to the open position. When the carriage 3 reaches the maintenance area Z and the heads 4, 4,... Are respectively located at positions facing the suction cap 61, the carriage 3 stops. Next, when the elevating mechanism raises the maintenance unit 6 to the highest point, the nozzle plates 42, 42,. Thereafter, the suction pumps 64, 64,... Operate to apply a negative pressure to the inside of the suction caps 61, 61,. The sucked ink is sent to a waste tank 65 through a pipe 66 and stored therein.
[0061]
When the lifting mechanism lowers the maintenance unit 6 from the uppermost point after the suction is completed, the suction caps 61, 61,. At this time, the lifting mechanism stops the maintenance unit 6 between the uppermost point and the lowermost point without moving the maintenance unit 6 to the lowermost point. In this state, the upper end of the wiper blade 63 protrudes upward from the opening 81 a of the box body 81, and is located above the nozzle plate 42.
[0062]
After that, the moving mechanism moves the maintenance unit 6 and the shielding unit 80 in the direction D so as to separate from the recording area Y. When the maintenance unit 6 is moving in the direction D, the wiper blade 63 rubs the lower surface 41 of the head 4 and the nozzle plate 42 while being elastically deformed (wiping operation). Thus, ink, dust, and the like adhering to the lower surface 41 of the head 4 and the nozzle plate 42 are wiped off.
[0063]
When all the heads 4, 4,... Are rubbed by the wiper blade 63 in order from the head 4 closest to the home area X to the head 4 farthest from the home area X, the moving mechanism records the maintenance unit 6 and the shielding unit 80. Move so as to be close to the area Y. When the tray 62 passes below the head 4, the head 4 performs idle discharge of ink from the discharge port toward the tray 62 (idle discharge operation). When the idle ejection of all the heads 4, 4,... From the head 4 farthest from the home area X to the head 4 closest to the home area X is completed, the carriage 3 moves from the maintenance area Z to the recording area Y or the home area X. Move towards. When the lifting mechanism moves the maintenance unit 6 to the lowest point, the suction caps 61, 61,..., The tray 62 and the wiper blade 63 are stored inside the box 81. Next, the opening / closing mechanism moves the lid member 82 from the open position to the closed position, and the opening 81 a is closed by the lid member 82. Thus, the maintenance operation ends.
[0064]
When the carriage 3 moves to the home area X after the maintenance operation of the ink jet printer 1 is completed, the heads 4, 4,... The inkjet printer 1 enters a standby state. On the other hand, when the carriage 3 is moved into the recording area Y after the maintenance operation is completed, the inkjet printer 1 performs an image recording operation.
[0065]
The image recording operation of the inkjet printer 1 will be described. The carriage 3 reciprocates in the main scanning direction A within the recording area Y while the transport mechanism intermittently moves the recording medium P in the transport direction, and the carriage 3 moves. Perform the ejection operation at the timing according to the image information. During the image recording operation, the heating means heats the ink to 30 ° C. to 150 ° C., and one dot of ink is ejected from the heads 4, 4,... As small droplets of 2 to 20 pl. Further, during the image recording operation, the ultraviolet irradiation mechanisms 10, 10 emit ultraviolet light, and when the ultraviolet irradiation mechanism 10 passes over the ink that has landed on the recording medium P from the head 4, the ultraviolet irradiation mechanisms 10 The emitted ultraviolet light is applied to the ink. This cures the ink.
[0066]
During the image recording operation, the opening / closing mechanism keeps the lid member 82 at the closed position, and the lid member 82 is always located at the closed position. Even when the ultraviolet irradiation mechanisms 10 emit ultraviolet light during the image recording operation, the ultraviolet light does not enter the maintenance unit 6 because the lid member 82 and the box body 81 have the ultraviolet shielding property. However, even when the maintenance unit 6 is housed in the box 81, the state of the maintenance unit 6 can be visually checked because the lid member 82 and the box 81 have visible light transmittance.
[0067]
When the image recording operation is completed, the carriage 3 moves toward the home area X or the maintenance area Z. When the carriage 3 moves toward the maintenance area Z, the ink jet printer 1 performs the above-described maintenance operation by the maintenance unit 6. On the other hand, when the carriage 3 moves to the home area X, the heads 4, 4,... Are respectively covered with the moisturizing cap 71, and the ink jet printer 1 enters a standby state. Here, when the inkjet printer 1 is in a standby state, the ultraviolet irradiation mechanisms 10 and 10 are turned off, and when the inkjet printer 1 is performing a maintenance operation, the ultraviolet irradiation mechanisms 10 and 10 are turned off. ing.
Note that the inkjet printer 1 in the standby state may shift to an image recording operation or shift to a maintenance operation.
[0068]
As described above, in the present embodiment, the box body 81 and the cover member 82 of the shielding unit 80 are formed of methacrylic resin, so that the box body 81 and the cover member 82 have visible light transmittance and ultraviolet light shielding properties. During the image recording operation, the maintenance unit 6 is housed in the box 81 and the opening 81a is closed by the cover member 82. Therefore, even if the ultraviolet rays emitted from the ultraviolet irradiation mechanisms 10, 10 are reflected and diffracted, the maintenance unit 6 is not used. 6 can be prevented. Therefore, it is possible to prevent the ink attached to the maintenance unit 6 from being cured, and the cleaning operation of the maintenance unit 6 is facilitated.
Further, since the box body 81 and the lid member 82 have visible light transmittance, the state of the maintenance unit 6 housed inside the box body 81 can be visually checked. Therefore, how much ink has adhered to the maintenance unit 6 can be easily grasped, and the cleaning timing of the maintenance unit 6 is not missed. Further, it is not necessary to take out the maintenance unit 6 from the inside of the box body 81 or remove the box body 81 and the cover member 82 only to grasp the state of the maintenance unit 6.
[0069]
[Example of experiment]
In this experimental example, the presence or absence of the ultraviolet ray shielding property of the acrylic plate against ultraviolet rays was verified, and it was confirmed whether or not the box body 81 and the lid member 82 had the ultraviolet ray shielding property in the above embodiment.
FIG. 3 is a drawing for explaining the outline of the experimental method in this experimental example.
In this experiment, as shown in FIG. 3, the acrylic plate 302 was interposed between the ultraviolet light source 300 and the illuminometer 301 while the distance between the ultraviolet light source 300 and the illuminometer 301 was kept at 100 mm, and The illuminance of the light emitted from the ultraviolet light source was measured with an illuminometer before and after the interposition. However, the measurement wavelength range is 200 to 800 nm. Further, the acrylic plate 302 was formed of the same material as the box body 81 and the lid member 82, and it was confirmed by visual inspection that the acrylic plate 302 was transparent.
[0070]
In this experiment, an acrylic plate having a thickness of 3.0 mm was used as the acrylic plate 302. Examples of the ultraviolet light source 300 include an ultraviolet light source (manufactured by Nippo Electric) that emits light with a wavelength of 254 nm, an ultraviolet light source (manufactured by Hibeck) that emits light with a wavelength of 310 nm, and an ultraviolet light source (manufactured by Hibeck) that emits light of 365 nm Three UV light sources were used respectively. USR40 (manufactured by Ushio Inc.) was used as the illuminometer 301.
[0071]
FIG. 4 is a view showing an experimental result when an ultraviolet light source having a wavelength of 254 nm is used, FIG. 5 is a view showing an experimental result when an ultraviolet light source having a wavelength of 310 nm is used, and FIG. 6 is an ultraviolet light source having a wavelength of 365 nm. 6 is a drawing showing the experimental results when using.
[0072]
As shown in FIG. 4, when an acrylic plate 302 was not interposed between the ultraviolet light source 300 and the illuminometer 301 when an ultraviolet light source having a wavelength of 254 nm was used, light having an illuminance of about 550 μW was detected near the wavelength of 254 nm. . On the other hand, when the acrylic plate 302 was interposed between the ultraviolet light source 300 and the illuminometer 301, almost no light was detected in the ultraviolet region (wavelength: about 200 to 400 nm) and the visible region (about 400 to 800 nm).
[0073]
As shown in FIG. 5, when the acrylic plate 302 was not interposed between the ultraviolet light source 300 and the illuminometer 301 when the ultraviolet light source having the wavelength of 310 nm was used, light having an illuminance of about 19 μW was detected near the wavelength of 310 nm. . On the other hand, when the acrylic plate 302 was interposed between the ultraviolet light source 300 and the illuminometer 301, almost no light was detected in the ultraviolet region, but weak light near the respective wavelengths of 405 nm, 430 nm, and 550 nm in the visible region. was detected.
[0074]
As shown in FIG. 6, when an acrylic plate 302 was not interposed between the ultraviolet light source 300 and the illuminometer 301 when an ultraviolet light source having a wavelength of 365 nm was used, light having an illuminance of about 40 μW was detected near the wavelength of 365 nm. . On the other hand, when the acrylic plate 302 was interposed between the ultraviolet light source 300 and the illuminometer 301, almost no light was detected in the ultraviolet region and the visible region.
[0075]
From the experimental results shown in FIGS. 4 to 6, when the acrylic plate 302 is interposed between the ultraviolet light source 300 and the illuminometer 301, light in the ultraviolet region is not detected by the illuminometer 301 and the acrylic plate 302 It was sufficiently suggested that it had a light-shielding property. Therefore, in the ink jet printer 1 shown in the above embodiment, the ultraviolet rays can be sufficiently shielded by the box 81 and the cover member 82 of the shielding unit 80, and the ink attached to the maintenance unit 6 is reliably prevented from being cured. can do.
[0076]
The present invention is not limited to the above embodiment, and various improvements and design changes may be made without departing from the spirit of the present invention.
[0077]
【The invention's effect】
As described above, according to the first aspect of the present invention, since the maintenance unit is covered by the shielding unit having the ultraviolet shielding property, the ultraviolet rays emitted from the ultraviolet irradiation mechanism during the image recording operation enter the maintenance unit. Can be prevented. Therefore, it is possible to prevent the ink attached to the maintenance unit from being cured. Further, since the shielding unit has visible light transmittance, the state of the maintenance unit covered by the shielding unit can be visually checked.
[0078]
According to the second aspect of the present invention, since the lid member opens and closes the opening of the box, the maintenance unit can perform maintenance on the head through the opening during the maintenance operation. During the image recording operation, if the lid member closes the opening, it is possible to prevent ultraviolet rays emitted from the ultraviolet irradiation mechanism from entering the maintenance unit. Furthermore, since the lid member and the box have visible light transmittance, the state of the maintenance unit can be visually checked.
[0079]
According to the third aspect of the present invention, if the maintenance unit projects from the box through the opening during the maintenance operation, maintenance can be performed on the head. During the image recording operation, if the maintenance unit is covered by the box and the lid member closes the opening, the ultraviolet light emitted from the ultraviolet irradiation mechanism is reflected and diffracted and enters the maintenance unit. Can be prevented. Furthermore, since the lid member and the box have visible light transmittance, the state of the maintenance unit can be visually checked.
[0080]
According to the invention described in claim 4, the opening of the box body is automatically opened and closed by the lid member.
[0081]
According to the fifth aspect of the present invention, since the acrylic resin has an ultraviolet shielding property and a visible light transmitting property, it has the same effect as the second aspect of the invention.
[0082]
According to the invention described in claim 6, the discharge state of the discharge port can be efficiently returned.
[0083]
According to the seventh aspect of the present invention, clogging of the nozzles of the head can be prevented by performing the maintenance operations such as the suction operation, the wiping step, and the receiving operation, and it is possible to always perform good image formation.
[0084]
According to the eighth aspect of the invention, since the ink is ejected in a good state, image recording can be performed, and high-quality image recording can be performed even with high-viscosity ink.
[0085]
According to the ninth aspect of the invention, an appropriate and efficient maintenance operation for the head can be performed even when high-viscosity ink is used.
[0086]
According to the tenth aspect of the present invention, even when a cationically polymerizable ultraviolet curable ink is used, it is possible to appropriately prevent the ink from sticking to the maintenance unit, and to sufficiently perform continuous image recording. The maintenance operation can be performed, and a high-quality image can be obtained.
[Brief description of the drawings]
FIG. 1 is a front view schematically showing an inkjet printer to which the present invention is applied.
FIG. 2 is a perspective view showing a shielding unit and a maintenance unit provided in the inkjet printer.
FIG. 3 is a drawing for explaining the outline of an experimental method for confirming the ultraviolet shielding property of the box and the cover member of the shielding unit.
FIG. 4 is a drawing showing experimental results when an ultraviolet light source having a wavelength of 254 nm is used.
FIG. 5 is a drawing showing experimental results when an ultraviolet light source having a wavelength of 310 nm is used.
FIG. 6 is a drawing showing experimental results when an ultraviolet light source having a wavelength of 365 nm is used.
[Explanation of symbols]
1 Inkjet printer
4 head
6 Maintenance unit
10 UV irradiation mechanism
61 Suction cap
62 Receiving tray (receiving part)
63 Wiper blade (blade)
8 Shielding unit
81 Box
81a opening
82 Lid member

Claims (10)

A head that has an ejection port and ejects ink that is cured by being irradiated with ultraviolet rays toward the recording medium from the ejection port, and an ultraviolet irradiation mechanism that irradiates the recording medium with ultraviolet rays. In an ink jet printer, the ink that has been ejected and landed on the recording medium is irradiated with ultraviolet rays by the ultraviolet irradiation mechanism to cure the ink,
A maintenance unit that performs maintenance on the head,
And a shielding unit that covers the outside of the maintenance unit and has an ultraviolet shielding property and a visible light transmitting property. The shielding unit covers the outside of the maintenance unit and is provided with a box in which an opening is formed, and is movably provided between a closed position in which the opening is closed and an open position in which the opening is opened. The ink jet printer according to claim 1, further comprising: a lid member, wherein the box body and the lid member have an ultraviolet light shielding property and a visible light transmitting property. The ink jet printer according to claim 2, wherein the maintenance unit is movably provided between a position protruding out of the box from the opening and a position housed in the box. The inkjet printer according to claim 2, further comprising an opening / closing mechanism that moves the lid member from the closed position to the open position. The ink jet printer according to any one of claims 2 to 4, wherein at least one of the lid member and the box is formed of an acrylic resin. The maintenance unit is
A suction cap that covers the discharge port when suctioning ink from the discharge port,
A receiving portion for receiving ink discharged from the discharge port in a state facing the discharge port after suction,
The inkjet printer according to any one of claims 1 to 5, further comprising a blade that rubs the head after suction. The maintenance operation by the maintenance unit includes a suction operation of sucking ink from the head, a wiping operation of wiping ink adhering to the head, and a receiving operation of receiving ink that is idlely discharged from a discharge port of the head. The inkjet printer according to claim 1, wherein the inkjet printer includes at least one operation. The head heats ink, which is a liquid having a viscosity of 10 to 500 mPa · s at 30 ° C., to 30 to 150 ° C. by a heating means, and discharges one dot into small droplets of 2 to 20 pl. The inkjet printer according to any one of claims 1 to 7, wherein: 9. The ink jet printer according to claim 1, wherein the recording medium is made of a material that does not absorb the ink. 10. The ink jet printer according to any one of claims 1 to 9, wherein the ink discharged from the discharge port is a cationically polymerizable ink.

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